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长管道效应对大高度作业平台调平性能的影响
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作者 张翠红 曹学鹏 +1 位作者 王官洪 杨彬 《甘肃农业大学学报》 CAS CSCD 北大核心 2017年第3期117-122,130,共7页
【目的】为改善高空作业平台的调平性能,研究长管道效应对调平性能的影响.【方法】通过建立长管道模型,分析了影响调平性能的管道参数,并结合长管道作用下的调平系统仿真模型,分别研究管道材质、长度、直径及布管方式对调平性能的影响规... 【目的】为改善高空作业平台的调平性能,研究长管道效应对调平性能的影响.【方法】通过建立长管道模型,分析了影响调平性能的管道参数,并结合长管道作用下的调平系统仿真模型,分别研究管道材质、长度、直径及布管方式对调平性能的影响规律.【结果】硬管材质能够较软管材质使系统响应时间缩短0.4~0.6s;管道长度由1m增加至40m可使系统响应时间由0.05s延长至0.3s,压力损失由0.6bar增大至24.8bar;管道直径由5mm增大至20mm,使调平稳定时间由1.1s延长至2.2s,压力损失由69.9bar减小至1.7bar;阀前布管较阀后布管加快系统响应时间约0.2s,但易引起压力冲击.【结论】长管道效应对高空作业平台调平性能的影响显著,长管道参数化分析形成调平系统的优化布置及参数选择原则,对高空作业平台的调平性能改善提供了参考. 展开更多
关键词 高空作业平台 大高度作业 长管道效应 调平性能
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DC Gain Analysis of Scaled CMOS Op Amp in Sub-100 nm Technology Nodes:A Research Based on Channel Length Modulation Effect
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作者 程嘉 蒋建飞 蔡琪玉 《Journal of Shanghai Jiaotong university(Science)》 EI 2009年第5期613-619,共7页
Metal-oxide-semiconductor field effect transistor(MOSFET) intrinsic gain degradation caused by channel length modulation(CLM) effect is examined.A simplified model based on Berkeley short-channel insulator-gate field ... Metal-oxide-semiconductor field effect transistor(MOSFET) intrinsic gain degradation caused by channel length modulation(CLM) effect is examined.A simplified model based on Berkeley short-channel insulator-gate field effect transistor model version 4(BSIM4) current expression for sub-100 nm MOSFET intrinsic gain is deduced,which only needs a few technology parameters.With this transistor intrinsic gain model,complementary metal-oxide-semiconductor(CMOS) operational amplifier(op amp) DC gain could be predicted.A two-stage folded cascode op amp is used as an example in this work.Non-minimum length device is used to improve the op amp DC gain.An improvement of 20 dB is proved when using doubled channel length design.Optimizing transistor bias condition and using advanced technology with thinner gate dielectric thickness and shallower source/drain junction depth can also increase the op amp DC gain.After these,a full op amp DC gain scaling roadmap is proposed,from 130 nm technology node to 32 nm technology node.Five scaled op amps are built and their DC gains in simulation roll down from 69.6 to 41.1 dB.Simulation shows transistors biased at higher source-drain voltage will have more impact on the op amp DC gain scaling over technology.The prediction based on our simplified gain model agrees with SPICE simulation results. 展开更多
关键词 analog circuits complementary metal-oxide-semiconductor (CMOS) analog integrated circuits MODELING operational amplifiers simulation technology node
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